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WO2007008005A1 - Appareil et procede pour traitement du signal audio - Google Patents

Appareil et procede pour traitement du signal audio Download PDF

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Publication number
WO2007008005A1
WO2007008005A1 PCT/KR2006/002683 KR2006002683W WO2007008005A1 WO 2007008005 A1 WO2007008005 A1 WO 2007008005A1 KR 2006002683 W KR2006002683 W KR 2006002683W WO 2007008005 A1 WO2007008005 A1 WO 2007008005A1
Authority
WO
WIPO (PCT)
Prior art keywords
block
entropy
values
parcor
audio data
Prior art date
Application number
PCT/KR2006/002683
Other languages
English (en)
Inventor
Tilman Liebchen
Original Assignee
Lg Electronics Inc.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from PCT/KR2005/002291 external-priority patent/WO2007011079A1/fr
Priority claimed from PCT/KR2005/002292 external-priority patent/WO2007011080A1/fr
Priority claimed from PCT/KR2005/002290 external-priority patent/WO2007011078A1/fr
Priority claimed from PCT/KR2005/002306 external-priority patent/WO2007011083A1/fr
Priority claimed from PCT/KR2005/002308 external-priority patent/WO2007011085A1/fr
Priority claimed from PCT/KR2005/002307 external-priority patent/WO2007011084A1/fr
Application filed by Lg Electronics Inc. filed Critical Lg Electronics Inc.
Priority to CNA200680028892XA priority Critical patent/CN101238509A/zh
Priority to JP2008521311A priority patent/JP2009500687A/ja
Priority to EP06769220A priority patent/EP1913585A4/fr
Publication of WO2007008005A1 publication Critical patent/WO2007008005A1/fr

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    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/008Multichannel audio signal coding or decoding using interchannel correlation to reduce redundancy, e.g. joint-stereo, intensity-coding or matrixing
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/0017Lossless audio signal coding; Perfect reconstruction of coded audio signal by transmission of coding error
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/02Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using spectral analysis, e.g. transform vocoders or subband vocoders
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/02Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using spectral analysis, e.g. transform vocoders or subband vocoders
    • G10L19/0212Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using spectral analysis, e.g. transform vocoders or subband vocoders using orthogonal transformation
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/02Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using spectral analysis, e.g. transform vocoders or subband vocoders
    • G10L19/022Blocking, i.e. grouping of samples in time; Choice of analysis windows; Overlap factoring
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/04Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using predictive techniques
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/04Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using predictive techniques
    • G10L19/08Determination or coding of the excitation function; Determination or coding of the long-term prediction parameters
    • G10L19/12Determination or coding of the excitation function; Determination or coding of the long-term prediction parameters the excitation function being a code excitation, e.g. in code excited linear prediction [CELP] vocoders
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/04Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using predictive techniques
    • G10L19/16Vocoder architecture
    • G10L19/167Audio streaming, i.e. formatting and decoding of an encoded audio signal representation into a data stream for transmission or storage purposes
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B27/00Editing; Indexing; Addressing; Timing or synchronising; Monitoring; Measuring tape travel
    • G11B27/10Indexing; Addressing; Timing or synchronising; Measuring tape travel
    • G11B27/102Programmed access in sequence to addressed parts of tracks of operating record carriers
    • G11B27/105Programmed access in sequence to addressed parts of tracks of operating record carriers of operating discs
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04SSTEREOPHONIC SYSTEMS 
    • H04S1/00Two-channel systems
    • H04S1/007Two-channel systems in which the audio signals are in digital form
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
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    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/005Correction of errors induced by the transmission channel, if related to the coding algorithm
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/02Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using spectral analysis, e.g. transform vocoders or subband vocoders
    • G10L19/032Quantisation or dequantisation of spectral components
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/04Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using predictive techniques
    • G10L19/06Determination or coding of the spectral characteristics, e.g. of the short-term prediction coefficients
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L19/00Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis
    • G10L19/04Speech or audio signals analysis-synthesis techniques for redundancy reduction, e.g. in vocoders; Coding or decoding of speech or audio signals, using source filter models or psychoacoustic analysis using predictive techniques
    • G10L19/16Vocoder architecture
    • G10L19/18Vocoders using multiple modes
    • G10L19/24Variable rate codecs, e.g. for generating different qualities using a scalable representation such as hierarchical encoding or layered encoding
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B20/00Signal processing not specific to the method of recording or reproducing; Circuits therefor
    • G11B20/10Digital recording or reproducing
    • G11B20/10527Audio or video recording; Data buffering arrangements
    • G11B2020/10537Audio or video recording
    • G11B2020/10546Audio or video recording specifically adapted for audio data

Definitions

  • the present invention relates to a method for processing audio
  • phonographic technology e.g., record players
  • magnetic technology e.g., cassette tapes
  • digital technology e.g., digital technology
  • MPEG MP3 or AAC
  • DVD audio and Super CD Audio include proprietary
  • Lossless audio coding permits the compression of digital audio data without any loss in quality-
  • the present invention relates to method of processing an audio
  • a block of digital audio data is stored in a buffer, and a set of parcor values are calculated for the block of digital audio data, Then, the parcor values are entropy encoded for transmission.
  • the entropy coding includes selecting a table including offset
  • each of the plurality of tables is
  • tables may be associated with a sampling rate that is one of
  • the entropy codes are Rice codes, while in
  • the entropy codes are Block Gilbert Moore Code (BGMC) codes.
  • BGMC Block Gilbert Moore Code
  • index information identifies the selected table. For example, the table index information value for entropy coding of
  • predictor coefficients may be one of 00, 01, and 10 where the
  • table index information value 00 indicates a table associated
  • the table index information value 01 indicates a table associated with a sampling rate of
  • the table index information value 10 indicates a table
  • predictor coefficients may be 11.
  • the present invention further relates to methods and
  • FIG. 1 is an example illustration of an encoder according to an embodiment of the present invention.
  • FIG. 2 is an example illustration of a decoder according to an
  • FIG. 3 is an example illustration of a bitstream structure
  • FIG. 4 is an example illustration of a conceptual view of a
  • FIG. 5 is an example illustration of a block switching
  • FIG. 6 is an example illustration of block switching methods
  • FIG. 1 is an example illustration of an encoder 1 according to
  • a partitioning part 100 partitions the input audio data into frames.- Within one frame, each channel may be further
  • a buffer 110 stores block and/or frame samples partitioned by the partitioning part 100.
  • a coefficient estimating part 120 estimates an optimum set of
  • the order of the predictor can be adaptively chosen as
  • the coefficient estimating part 120 calculates a set of
  • a quantizing part 130 quantizes the set of parcor values .
  • a first entropy coding part 140 calculates parcor residual values by subtracting an offset value from the parcor value, and encodes the parcor residual values using entropy codes
  • the entropy parameters are chosen from an optimal table.
  • optimal table is selected from a plurality of tables based on
  • plurality of tables are predefined for a plurality of sampling
  • a coefficient converting part 150 converts the quantized
  • a predictor 160 estimates current prediction values from the
  • a subtracter 170 calculates a prediction residual of the block of digital audio data using an original value of digital audio data stored in
  • a second entropy coding part 180 codes the prediction residual using different entropy codes and generates code indices.
  • the second entropy coding part 180 may code the
  • BGMC Block Gilbert-Moore Codes
  • a multiplexing part 190 multiplexes coded prediction residual, code indices, coded parcor residual values, and
  • the encoder 1 also provides a cyclic redundancy check (CRC)
  • checksum which is supplied mainly for the decoder to verify
  • the decoded data On the encoder side, the CRC can be used to calculate the decoded data.
  • the CRC On the encoder side, the CRC can be used to calculate the decoded data.
  • the CRC On the encoder side, the CRC can be used to calculate the decoded data.
  • Additional encoding options include flexible block switching
  • the encoder 1 may use these options to offer several compression levels with
  • the joint channel coding is used to
  • channel signals This can be achieved by coding the difference between two channels in the segments where this
  • FIG. 2 is an example illustration of a decoder 2 according to
  • FIG. 2 shows the present invention. More specially, FIG. 2 shows the
  • lossless audio signal decoder which is significantly less complex than the encoder, since no adaptation has to be carried out.
  • a demultiplexing part 200 receives an audio signal and demultiplexes a coded prediction residual of a block of digital audio data, code indices, coded parcor residual values and other additional information.
  • part 210 decodes the parcor residual values using entropy codes defined by entropy parameters and calculates a set of
  • a coefficient converting part 230 converts
  • predictor 240 estimates a prediction residual of the block of
  • An adder 250 is provided to convert digital audio data using the LPC coefficients.
  • An assembling part 260 assembles the decoded block data into frame data.
  • the decoder 2 decodes the coded prediction residual
  • FIG. 3 is an example illustration of a bitstream structure of a compressed audio signal including a plurality of channels
  • the bitstream consists of at least one audio frame including a
  • the "channels" field in the bitstream configuration syntax indicates the number of channels. Each channel is subdivided into a plurality of blocks using the block switching
  • Each sub-divided block has a different size
  • the coding data within a subdivided block For example, the coding data within a subdivided block
  • partition is identical for both channels, and blocks are
  • An aspect of the present invention relates to subdividing each
  • the block partitioning (or
  • block switching method referred to as a "block switching method” .
  • FIG. 4 is an example illustration of a conceptual view of a hierarchical block switching method according to the present invention. For example, FIG. 4 illustrates a method of
  • each channel hierarchically subdividing one channel into 32 blocks.
  • channel may be subdivided (or partitioned) to up to 32 blocks, and the subdivided blocks for each channel configure a frame.
  • the partitioning part 100 shown in FIG. 1 is performed by the partitioning part 100 shown in FIG. 1. Furthermore, as described above, the prediction and entropy coding are performed on the subdivided
  • ALS Audio Lossless Coding
  • this scheme may have some
  • each channel of a frame may be
  • FIG. 4 illustrates a channel which can be hierarchically subdivided to up to 32 blocks .
  • Arbitrary combinations of blocks with N B N, N/2, N/4, N/8, N/16, and
  • N/32 may be possible within a channel according to the presented embodiments, as long as each block results from a
  • partition into N/4 + N/2 + N/4 may not be possible (e.g.,
  • each block has a length equal to
  • N is the length of the channel
  • m is an integer greater
  • p represents a number of the levels in the subdivision hierarchy.
  • a bitstream includes information indicating block switching
  • settings are made so that a minimum block size
  • level 3 block switching when the
  • the information which is referred to as a level 0 block switching.
  • the information which is referred to as a level 0 block switching.
  • the first block switching information indicating the block switching level will be referred to as a first block switching information.
  • the first block switching information For example, the first
  • block switching information may be represented by a 2-bit ⁇ block_switching" field within the syntax shown in Table 6, which will be described in a later process. More specifically,
  • block_switching 00" signifies level 0
  • block_switching 01" signifies any one of level 1 to level 3
  • block_switching
  • second block switching information is referred to in the embodiments as second block switching information.
  • the second block switching information may be
  • one channel configures one block.
  • Table 1 Block switching levels.
  • mapping each bit within the second block switching
  • the bs_info field may include up to 4 bytes in accordance with the above-described embodiments.
  • the first bit may be reserved for indicating independent or synchronous block switching, which is described
  • FIGs. 5(a)-5(f) illustrate different block
  • N B N/8, and the bs_info consists of one byte.
  • bs_info are set if a block is further subdivided. For example,
  • first block of length N/2 is further split ((0)110%) into two
  • FIG. 5(f) could not have been obtained by subdividing a block
  • FIGs. 6 (a) - 6(c) are example illustrations of block switching
  • FIG. 6 (a) illustrates an example where
  • FIG. 6 (b) illustrates an example in which two channels
  • channels 1 and 2 configure one channel pair, and block
  • FIG. 1 illustrates an example in which two channels (channels 1 and 2) configure one channel pair, and the block switching of
  • channel pair refers to two arbitrary audio channels .
  • channel may be identical for all channels, the block switching
  • the channels may be divided into blocks differently. If the two channels of a channel pair are correlated with each other and difference coding is used, both
  • channels of a channel pair may be block switched synchronously.
  • the channels are block
  • FIG. 1 is a diagrammatic representation of a single block switched (i.e., divided into blocks) in the same manner.
  • the blocks may be interleaved. If the two channels of a
  • block switching may be applied to a multi-channel group having a number of channels equal to or more than 3 channels .
  • channels of a multi-channel group are not correlated with each
  • each channel of the multi-channel group may be switched
  • the "bs_info" field is used as the information for
  • ⁇ bs_info field is also used as the information for indicating whether block switching has been performed independently or
  • bit within the ⁇ bs_info" field may be used. If, for example, the two channels of the channel pair are independent from one another, the first bit of the "bs_info"
  • bit of the "bs_info” field is set as "0".
  • FIGs. 6 (a) , 6 (b) , and 6 (c) will now be described
  • channels 1 and 2 configure a channel
  • both channels 1 and 2 are split into
  • the interleaving may be beneficial (or
  • a block of one channel (e.g.,
  • channels 1 and 2 configure a channel pair.
  • block switching is performed independently. More specifically, channel 1 is split into
  • channel data may be arranged separately.
  • Joint channel coding also called joint stereo, can be used to
  • d( ⁇ ) in each block may be carried out by comparison of the individual signals, depending on which two signals
  • the channels can be rearranged by
  • the encoder in order to assign suitable channel pairs.
  • lossless audio codec also supports a more complex scheme for exploiting inter-channel redundancy between arbitrary channels of multi-channel signals.
  • the present invention relates to audio lossless coding and is
  • Random access stands for fast
  • the encoder needs to insert a frame that can be decoded without decoding previous frames .
  • Random access frame is referred to as a "random access frame" .
  • a "random_access" field is used as information for indicating whether random access is allowed
  • the information corresponds to a distance between a random access frame within the current random access unit and a random access frame within the next random access unit.
  • the configuration syntax may further include information indicating a location where the "ra_unit_size" information is
  • ⁇ X random_access field within the configuration syntax may also be referred to as
  • the "ra_flag" field may also be referred to as second general information.
  • an audio signal includes configuration information and a plurality of random access
  • each random access unit containing one or more audio
  • the configuration information includes first general
  • the random access unit size information indicating a distance between two adjacent random access unit.
  • method of decoding an audio signal includes receiving the
  • each random access unit containing one or more audio data frames, one of which is a random access
  • an audio signal includes multi-channels
  • each channel may be mapped at a one-to-one correspondence with
  • the "chan__config_info” field includes
  • channels field is equal to “0” , this indicates that the channel corresponds to a mono channel.
  • channels field is equal to "1”, this indicates that the channel corresponds to one of stereo channels.
  • the channel corresponds to one of multi-channels .
  • the present invention also includes information indicating whether
  • Table 2 Channel configuration.
  • an audio signal includes multiple or
  • a 32-bit “samples” field is used as information indicating the total number of audio data samples configuring each channel . Further, a 16-bit ⁇ frame_length" field is used as information indicating the number of samples for each channel within the
  • n frame_length 16-bit value of the n frame_length field is determined by a value used by the encoder, and is referred to
  • the user-defined value is arbitrarily determined
  • the frame number of each channel should first be obtained.
  • the total number of frames for each channel is calculated by dividing the total number of samples for each
  • the multiple value becomes the total number of frames.
  • samples field is not an exact multiple of the number of
  • the encoder may freely decide and transmit the total number of samples ("samples" field) for each channel and the number of samples ("frame_length” field)
  • the decoder may accurately decide, by using the above-described algorithm on
  • the predictor 160 shown in FIG. 1 The predictor 160 shown in FIG. 1
  • the second entropy coding part 180 performs entropy
  • predictor coefficient values are entropy coded by the first
  • the coding part and the second entropy coding part 180 are inserted as part of the bitstream by the multiplexing part 190 and then transmitted.
  • Linear prediction is used in many applications for speech and audio signal processing.
  • an exemplary operation of the predictor 160 will be described based on Finite Impulse Response (FIR) filters.
  • FIR Finite Impulse Response
  • the current sample of a time-discrete signal x( ⁇ ) can be
  • K is the order of the predictor.
  • the backward adaptation procedure has
  • the predictor coefficients do not have to be transmitted as side information, thus their number does not contribute to the
  • forward adaptive prediction will be given as an example in the description set forth herein.
  • Another aspect of forward-adaptive prediction is to determine a suitable prediction order. Increasing the order decreases
  • bit rate R e for the residual.
  • bit rate R e for the residual.
  • the total bit rate for the coefficients can be determined in each iteration, i.e., for each prediction order.
  • the prediction order K is also
  • the configuration syntax (Table 6) includes information related to the prediction order K. For example, a 1-bit to 10-bit "max_order" field corresponds to information indicating
  • K 1023 (e .g. , 10-bit) .
  • the optimum order (opt_order) is decided based upon the value
  • each block may be decided considering the size of the
  • the opt_order value being
  • the present invention relates to higher
  • this factor can be increased (e.g., up to 32), enabling a
  • K max 1023.
  • K msx may be bound
  • Table 8 can also be up to 10 bits. The actual number of
  • bits in a particular block may depend on the maximum order allowed for a block. If the block is short, a local
  • prediction order may be smaller than a global prediction order.
  • the local prediction order is determined from considering the corresponding block length N B
  • the global prediction order is determined from the ⁇ max_order" K max in the
  • the "opt_order” field is determined on 8 bits (instead
  • the opt_order may be determined based on
  • a first sample of a current block is
  • the K value is determined from the opt_order which is derived from
  • the first sample in the block does not perform prediction.
  • the second sample of the block uses the first
  • the random access frame corresponds to a reference frame of
  • the random access unit does not
  • predictor coefficients h k is not very efficient for
  • the coefficient estimating part 120 is processed
  • the first two parcor coefficients ( ⁇ 1 and ⁇ 2 correspondingly)
  • the first entropy- coding part 140 is used for coding the above-described predictor coefficients.
  • the second entropy coding part 180 is used for coding the above-described audio original samples and audio residual samples.
  • the two types of entropy coding will now be described in detail.
  • the related art Rice code is used as the first entropy coding method according to the present invention. For example,
  • the corresponding offsets and parameters of Rice code used in this process can be globally chosen from one of the sets shown in Table 3 , 4 and 5 below.
  • a table index i.e., a 2-bit "coef_table”
  • Table 6 the configuration syntax
  • the first entropy decoding part 220 reconstructs the predictor coefficients by using the process that the residual
  • r(.) is an empirically determined mapping table (not shown
  • mapping table may vary with implementation
  • the first entropy coding are provided according to the sampling frequency.
  • the sampling frequency may be divided to 48kHz, 96kHz, and 192kHz.
  • table can also be chosen by other criteria.
  • Table 3 Rice code parameters used for encoding of
  • Table 4 Rice code parameters used for encoding of
  • Table 5 Rice code parameters used for encoding of
  • the present invention contains two different modes of the coding method applied to the second entropy coding part 180 of PIG. 1, which will now be described in detail.
  • the indices of the applied codes are transmitted, as
  • the encoder can use a more complex and
  • the two types include residuals that belong to a central region of the distribution,
  • tails are simply re-centered (i.e., for e ⁇ ⁇ ) > e max ,
  • the BGMC first splits the
  • the BGMC transmits LSBs using direct fixed-lengths
  • transmitted LSBs may be selected such that they only slightly
  • the coding to be significantly less complex.
  • the configuration syntax (Table 6) and the block_data syntax (Table 8) according to the present invention include
  • the ⁇ sb_part field corresponds to information related
  • BGMC code or the BGMC code is used to partition the block to sub-
  • 2 bits are assigned to the "ec_sub" field.
  • Second entropy coding part 180 are coded by second entropy coding part 180 using a difference
  • the block can be partitioned into 4 sub-blocks, each encoded sub-block
  • configuration syntax may form a header periodically placed in
  • bitstream may form a header of each frame,- etc.
  • Table 8 shows a block-data
  • Table 7 Frame_data syntax.
  • Table 8 Block_data syntax.
  • the results for the encoder are determined for a medium compression level (with the prediction order restricted
  • the compression ratio is defined as:
  • Pentium-M depending on audio format (kHz/bits) and ALS
  • the codec is designed to offer a large range of complexity
  • the decoder may be

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  • Physics & Mathematics (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Acoustics & Sound (AREA)
  • Health & Medical Sciences (AREA)
  • Human Computer Interaction (AREA)
  • Audiology, Speech & Language Pathology (AREA)
  • Computational Linguistics (AREA)
  • Spectroscopy & Molecular Physics (AREA)
  • Mathematical Physics (AREA)
  • Compression, Expansion, Code Conversion, And Decoders (AREA)
  • Stereophonic System (AREA)
  • Signal Processing For Digital Recording And Reproducing (AREA)
  • Compression Or Coding Systems Of Tv Signals (AREA)

Abstract

La présente invention concerne, pour un mode de réalisation, un procédé par lequel on met en tampon un bloc de données audio numériques, et on calcule des valeurs d'autocorrélation partielle pour ce bloc. Ces valeurs subissent alors un codage à entropie en vue de la transmission. Le codage à entropie consiste à s'appuyer sur un taux d'échantillonnage de données audio numériques pour sélectionner parmi plusieurs une table de valeurs de décalage et de paramètres d'entropie, puis à coder les valeurs d'autocorrélation partielle résiduelles en se servant des codes d'entropie définie par les paramètres d'entropie de la table choisie.
PCT/KR2006/002683 2005-07-11 2006-07-10 Appareil et procede pour traitement du signal audio WO2007008005A1 (fr)

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CNA200680028892XA CN101238509A (zh) 2005-07-11 2006-07-10 处理音频信号的装置和方法
JP2008521311A JP2009500687A (ja) 2005-07-11 2006-07-10 オーディオ信号の処理装置及び方法
EP06769220A EP1913585A4 (fr) 2005-07-11 2006-07-10 Appareil et procede pour traitement du signal audio

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US69755105P 2005-07-11 2005-07-11
US60/697,551 2005-07-11
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PCT/KR2005/002291 WO2007011079A1 (fr) 2005-07-16 2005-07-16 Appareil et procede de codage et de decodage de signal audio
KRPCT/KR2005/002291 2005-07-16
PCT/KR2005/002292 WO2007011080A1 (fr) 2005-07-16 2005-07-16 Appareil et procede de codage et decodage d'un signal audio
KRPCT/KR2005/002292 2005-07-16
PCT/KR2005/002290 WO2007011078A1 (fr) 2005-07-16 2005-07-16 Appareil et procede de codage et de decodage d'un signal audio
KRPCT/KR2005/002306 2005-07-18
KRPCT/KR2005/002308 2005-07-18
PCT/KR2005/002306 WO2007011083A1 (fr) 2005-07-18 2005-07-18 Appareil et procede de codage et de decodage d'un signal audio
KRPCT/KR2005/002307 2005-07-18
PCT/KR2005/002308 WO2007011085A1 (fr) 2005-07-18 2005-07-18 Appareil et procede destines a coder et decoder un signal audio
PCT/KR2005/002307 WO2007011084A1 (fr) 2005-07-18 2005-07-18 Appareil et procede de codage et de decodage de signal audio
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US8275476B2 (en) 2012-09-25
US7991012B2 (en) 2011-08-02
US20070011004A1 (en) 2007-01-11
WO2007008013A3 (fr) 2007-03-22
US8149876B2 (en) 2012-04-03
WO2007008002A2 (fr) 2007-01-18
US7996216B2 (en) 2011-08-09
CN101243496A (zh) 2008-08-13
EP1913584A4 (fr) 2011-02-23
US8032368B2 (en) 2011-10-04
CN101243494A (zh) 2008-08-13
CN101243497A (zh) 2008-08-13
US20090037192A1 (en) 2009-02-05
JP2009500687A (ja) 2009-01-08
JP2009500688A (ja) 2009-01-08
WO2007008003A2 (fr) 2007-01-18
US20090037188A1 (en) 2009-02-05
WO2007008004A2 (fr) 2007-01-18
EP1913585A1 (fr) 2008-04-23
US8055507B2 (en) 2011-11-08
EP1913581A4 (fr) 2011-02-09
JP2009500682A (ja) 2009-01-08
US8121836B2 (en) 2012-02-21
WO2007008001A3 (fr) 2007-03-22
US8554568B2 (en) 2013-10-08
EP1913587A1 (fr) 2008-04-23
US20090037167A1 (en) 2009-02-05
US8046092B2 (en) 2011-10-25
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